The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and Thresholds

The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and Thresholds

Ozone is a strong oxidant, and its use in aquaculture has been shown to improve water quality and fish health. At present, it is predominantly used in freshwater systems due to the high risk of toxic residual oxidant exposure in brackish water and seawater. Here, we report the effects of ozone on At...

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Main Authors: Kevin T. Stiller, Jelena Kolarevic, Carlo C. Lazado, Jascha Gerwins, Christopher Good, Steven T. Summerfelt, Vasco C. Mota, Åsa M. O. Espmark
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:International Journal of Molecular Sciences
Subjects:
aquaculture
ozone
Atlantic salmon
brackish water
gill health
Online Access:https://www.mdpi.com/1422-0067/21/14/5109
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spelling doaj-f6530875d9dc4299880b0009a9a8dc302020-11-25T03:01:36ZengMDPI AGInternational Journal of Molecular Sciences1661-65961422-00672020-07-01215109510910.3390/ijms21145109The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and ThresholdsKevin T. Stiller0Jelena Kolarevic1Carlo C. Lazado2Jascha Gerwins3Christopher Good4Steven T. Summerfelt5Vasco C. Mota6Åsa M. O. Espmark7Nofima AS, NO 9291 Tromsø, NorwayNofima AS, NO 9291 Tromsø, NorwayNofima AS, NO 9291 Tromsø, NorwayNofima AS, NO 9291 Tromsø, NorwayThe Conservation Fund’s Freshwater Institute, Shepherdstown, WV 25443, USAThe Conservation Fund’s Freshwater Institute, Shepherdstown, WV 25443, USANofima AS, NO 9291 Tromsø, NorwayNofima AS, NO 9291 Tromsø, NorwayOzone is a strong oxidant, and its use in aquaculture has been shown to improve water quality and fish health. At present, it is predominantly used in freshwater systems due to the high risk of toxic residual oxidant exposure in brackish water and seawater. Here, we report the effects of ozone on Atlantic salmon (<i>Salmo salar</i>) post-smolts (~100 g), in a brackish water (12 ppt) flow-through system. Salmon were exposed to oxidation reduction potential concentrations of 250 mV (control), 280 mV (low), 350 mV (medium), 425 mV (high) and 500 mV (very high). The physiological impacts of ozone were characterized by blood biochemical profiling, histopathologic examination and gene expression analysis in skin and gills. Fish exposed to 425 mV and higher showed ≥33% cumulative mortality in less than 10 days. No significant mortalities were recorded in the remaining groups. The skin surface quality and the thickness of the dermal and epidermal layers were not significantly affected by the treatments. On the other hand, gill histopathology showed the adverse effects of increasing ozone doses and the changes were more pronounced in the group exposed to 350 mV and higher. Cases of gill damages such as necrosis, lamellar fusion and hypertrophy were prevalent in the high and very high groups. Expression profiling of key biomarkers for mucosal health supported the histology results, showing that gills were significantly more affected by higher ozone doses compared to the skin. Increasing ozone doses triggered anti-oxidative stress and inflammatory responses in the gills, where transcript levels of <i>glutathione reductase</i>, <i>copper/zinc superoxide dismutase</i>, <i>interleukin 1β</i> and <i>interleukin</i> were significantly elevated. <i>Heat shock protein 70</i> was significantly upregulated in the skin of fish exposed to 350 mV and higher. <i>Bcl-2 associated x protein</i> was the only gene marker that was significantly upregulated by increasing ozone doses in both mucosal tissues. In conclusion, the study revealed that short-term exposure to ozone at concentrations higher than 350 mV in salmon in brackish water resulted in significant health and welfare consequences, including mortality and gill damages. The results of the study will be valuable in developing water treatment protocols for salmon farming.https://www.mdpi.com/1422-0067/21/14/5109aquacultureozoneAtlantic salmonbrackish watergill health
collection DOAJ
language English
format Article
sources DOAJ
author Kevin T. Stiller
Jelena Kolarevic
Carlo C. Lazado
Jascha Gerwins
Christopher Good
Steven T. Summerfelt
Vasco C. Mota
Åsa M. O. Espmark
spellingShingle Kevin T. Stiller
Jelena Kolarevic
Carlo C. Lazado
Jascha Gerwins
Christopher Good
Steven T. Summerfelt
Vasco C. Mota
Åsa M. O. Espmark
The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and Thresholds
International Journal of Molecular Sciences
aquaculture
ozone
Atlantic salmon
brackish water
gill health
author_facet Kevin T. Stiller
Jelena Kolarevic
Carlo C. Lazado
Jascha Gerwins
Christopher Good
Steven T. Summerfelt
Vasco C. Mota
Åsa M. O. Espmark
author_sort Kevin T. Stiller
title The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and Thresholds
title_short The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and Thresholds
title_full The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and Thresholds
title_fullStr The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and Thresholds
title_full_unstemmed The Effects of Ozone on Atlantic Salmon Post-Smolt in Brackish Water—Establishing Welfare Indicators and Thresholds
title_sort effects of ozone on atlantic salmon post-smolt in brackish water—establishing welfare indicators and thresholds
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1661-6596
1422-0067
publishDate 2020-07-01
description Ozone is a strong oxidant, and its use in aquaculture has been shown to improve water quality and fish health. At present, it is predominantly used in freshwater systems due to the high risk of toxic residual oxidant exposure in brackish water and seawater. Here, we report the effects of ozone on Atlantic salmon (<i>Salmo salar</i>) post-smolts (~100 g), in a brackish water (12 ppt) flow-through system. Salmon were exposed to oxidation reduction potential concentrations of 250 mV (control), 280 mV (low), 350 mV (medium), 425 mV (high) and 500 mV (very high). The physiological impacts of ozone were characterized by blood biochemical profiling, histopathologic examination and gene expression analysis in skin and gills. Fish exposed to 425 mV and higher showed ≥33% cumulative mortality in less than 10 days. No significant mortalities were recorded in the remaining groups. The skin surface quality and the thickness of the dermal and epidermal layers were not significantly affected by the treatments. On the other hand, gill histopathology showed the adverse effects of increasing ozone doses and the changes were more pronounced in the group exposed to 350 mV and higher. Cases of gill damages such as necrosis, lamellar fusion and hypertrophy were prevalent in the high and very high groups. Expression profiling of key biomarkers for mucosal health supported the histology results, showing that gills were significantly more affected by higher ozone doses compared to the skin. Increasing ozone doses triggered anti-oxidative stress and inflammatory responses in the gills, where transcript levels of <i>glutathione reductase</i>, <i>copper/zinc superoxide dismutase</i>, <i>interleukin 1β</i> and <i>interleukin</i> were significantly elevated. <i>Heat shock protein 70</i> was significantly upregulated in the skin of fish exposed to 350 mV and higher. <i>Bcl-2 associated x protein</i> was the only gene marker that was significantly upregulated by increasing ozone doses in both mucosal tissues. In conclusion, the study revealed that short-term exposure to ozone at concentrations higher than 350 mV in salmon in brackish water resulted in significant health and welfare consequences, including mortality and gill damages. The results of the study will be valuable in developing water treatment protocols for salmon farming.
topic aquaculture
ozone
Atlantic salmon
brackish water
gill health
url https://www.mdpi.com/1422-0067/21/14/5109
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